id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_73xkppnc7nbolh3mvrfkoljsym	Lisheng Qiao	A Structure-Enriched Neural Network for Network Embedding	2018	12	.pdf	application/pdf	6498	634	57	multi-channel, 3D fluorescent images of late timepoint vaccinia virus (VACV) infected cells (Fig. 1a and Fig. 1). Mimicry embedding allows for separation of cell-free and cell-associated VACV particles through weights transfer from a binary MNIST dataset. Inference demonstrates that mimicry embedding and trained CapsNet allows for efficient classification of VACV particles into four biological c, Respective inference of cell-free and cellassociated particles detected by ZedMate, mimicry embedded and predicted by a mimicry embedded and trained CapsNet results in classification of four types of biologically relevant VACV particles. a, Merged four channel fluorescent image of a HeLa cell infected with VACV cell infected with VACV and treated with the entry inhibitor, IPA 3, previously unseen by CapsNet. d, ZedMate detection and trained CapsNet of intracellular and Mimicry embedding and weight transfer employed for Toxoplasma gondii (Tg) viability detection in cell culture and in vivo..	./cache/work_73xkppnc7nbolh3mvrfkoljsym.pdf	./txt/work_73xkppnc7nbolh3mvrfkoljsym.txt